Magnetic resonance apparatus with a positioning unit

Abstract

A magnetic resonance apparatus has a positioning unit and a patient bed. The positioning unit can store a number of positions of the patient bed and can automatically position in an imaging volume the associated examination regions established by a marking unit in a diagnostic data acquisition procedure predetermined by a measurement control unit. The positioning unit can detect dimensions of a patient by evaluation of the number of positions of the patient bed and transfer these dimensions to a monitoring module. The monitoring module adapts the RF transmitting power to the patient according to the dimensions.

Description

BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention concerns a magnetic resonance apparatus of the type having a positioning unit with a marking unit connected thereto, and a movable patient bed, the position of which can be detected and changed by the positioning unit with the marking unit establishing examination regions of an examination subject. [0003] 2. Description of the Prior Art [0004] A magnetic resonance apparatus of the above general type is known from German OS 199 47 328. An actuation device serves to establish an examination region of an examination subject who is positioned by movement of the patient bed in an imaging volume of the magnetic resonance apparatus. A disadvantage of this known apparatus is that, in the case of a subsequent examination of a second examination region, the examination subject must be moved out of the magnetic resonance apparatus again in order to establish the second examination region, and the overall ...

AI Technical Summary

Benefits of technology

[0009] An object of the present invention is to provide a magnetic resonance apparatus of the above type in which the examination procedure is simplified.

[0011] At least one dimension of the examination subject is detected by the evaluation of a number of differently positioned examination regions. For example, the size of the head or the length of the legs of a patient can be determined, which then serve for adjustment of measurement parameters in the diagnostic data acquisition process. This offers the advantage that such geometrical information does not have to be acquired via a time-consuming magnetic resonance pre-measurement.

[0012] To increase the patient safety and shorten the examination duration, the magnetic resonance apparatus in an embodiment of the invention has a monitoring module that is connected with the positioning unit and the measurement control unit. The monitoring module determines the geometry of the patient from the measured (detected) dimensions, for example from positions of the forehead, neck, hips and feet. The conventionally employed cylinder model thus can be significantly improved, since the geometry is customized to the respective patient. The measurement control unit adjusts the RF transmitting power dependent on the specific absorption rate for the selected examination region. A higher setting of the transmitting power can be used than would ensue on the basis of the cylinder model. A reduction of the measurement time thus results.

[0013] In an embodiment, the positioning unit associates the position of the patient bed with the examination region and stores at least two different positions of the patient bed. Due to the storage of a number of bed positions, examinations of various examination regions can be implemented immediately after one another without the patient bed having to be moved out of the magnetic resonance apparatus. The duration of the overall examination is thereby significantly reduced.

[0016] In a further embodiment, the marking unit is pivotable, such that with the patient bed in the same (unchanged) position, differently positioned examination regions can be established on the examination subject. This has the advantage of saving time compared to a magnetic resonance apparatus with a non-pivotable marking unit, since in the latter the examination subject must always be moved by movement of the patient bed.

Problems solved by technology

A disadvantage of this known apparatus is that, in the case of a subsequent examination of a second examination region, the examination subject must be moved out of the magnetic resonance apparatus again in order to establish the second examination region, and the overall duration of the examination is thereby extended.

A relatively high uncertainty or imprecision results from this with regard to the maximum compatible RF transmitting power, so that for safety a substantially lower value is used for the data acquisition than the allowable value, which in turn leads to an extended measurement time.

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